Standard: Number, Number Sense and Operations Number and Number Systems A. Represent and compare numbers less than 0 through familiar applications and extending the number line. 1. Demonstrate an understanding of place value using powers of 0 and write large numbers in scientific notation. Number and Number Systems B. Compare, order and convert among fractions, decimals and percents. 1. Describe differences between rational and irrational numbers; e.g., use technology to show that some numbers (rational) can be expressed as terminating or repeating decimals and others Number and Number Systems Meaning of Operations Computation and Estimation Computation and Estimation E. Use order of operations, including use of parenthesis and exponents to solve multi-step problems, and verify and interpret the results. E. Use order of operations, including use of parenthesis and exponents to solve multi-step problems, and verify and interpret the results. G. Apply and explain the use of prime factorizations, common factors, and common multiples in problem situations. H. Use and analyze the steps in standard and non-standard algorithms for computing with fractions, decimals and integers. (irrational) as non-terminating and non-repeating decimals. 1. Explain the meaning of exponents that are negative or 0. 2. Use order of operations and properties to simplify numerical expressions involving integers, fractions and decimals. 1. Represent and solve problem situations that can be modeled by and solved using concepts of absolute value, exponents and square roots (for perfect squares). 1. Explain the meaning and effect of adding, subtracting, multiplying and dividing integers; e.g., how adding two integers can result in a lesser value. Computation and Estimation I. Use a variety of strategies, including proportional reasoning, to estimate, compute, solve and explain solutions to problems involving integers, fractions, decimals and percents. 2. Develop and analyze algorithms for computing with percents and integers, and demonstrate fluency in their use. 1. Simplify numerical expressions involving integers and use integers to solve real-life problems. 2. Solve problems using the appropriate form of a rational number (fraction, decimal or percent). 3. Represent and solve problem situations that can be modeled by and solved using concepts of absolute value, exponents and square roots (for perfect squares).
Standard: Measurement Measurement Units A. Select appropriate units to measure angles, circumference, surface area, mass and volume, using: U.S. customary units; e.g., degrees, square feet, pounds, and other units as appropriate; metric units; e.g., square meters, kilograms and other units as appropriate. Measurement Units Use Measurement Techniques and Tools Use Measurement Techniques and Tools Meanings of Operations B. Convert units of length, area, volume, mass and time within the same measurement system. C. Identify appropriate tools and apply appropriate techniques for measuring angles, perimeter or circumference and area of triangles, quadrilaterals, circles and composite shapes, and surface area and volume of prisms and cylinders. D. Select a tool and measure accurately to a specified level of precision. E. Use problem solving techniques and technology as needed to solve problems involving length, weight, perimeter, area, volume, time and temperature. 1. Select appropriate units for measuring derived measurements; e.g., miles per hour, revolutions per minute. 1. Convert units of area and volume within the same measurement system using proportional reasoning and a reference table when appropriate; e.g., square feet to square yards, cubic meters to cubic centimeters. 1. Use strategies to develop formulas for finding area of trapezoids and volume of cylinders and prisms. 2. Develop strategies to find the area of composite shapes using the areas of triangles, parallelograms, circles and sectors. 1. Estimate a measurement to a greater degree of precision than the tool provides. 1. Solve problems involving proportional relationships and scale factors; e.g., scale models that require unit conversions within the same measurement system.
Standard: Geometry and Spatial Sense Transformations and Symmetry D. Identify, describe and classify types of line pairs, angles, twodimensional figures and three-dimensional objects using their properties. E. Use proportions to express relationships among corresponding parts of similar figures. 1. Determine sufficient (not necessarily minimal) properties that define a specific two-dimensional figure or three-dimensional object. For example: a. Determine when one set of figures is a subset of another; e.g., all squares are rectangles. b. Develop a set of properties that eliminates all but the desired figure; e.g., only squares are quadrilaterals with all sides congruent and all angles congruent. 1. Use proportional reasoning to describe and express relationships between parts and attributes of similar and congruent figures. Transformations and Symmetry Visualization and Geometric Models F. Describe and use the concepts of congruence, similarity and symmetry to solve problems. G. Describe and use properties of triangles to solve problems involving angle measures and side lengths of right triangles. H. Predict and describe results (size, position, orientation) of transformations of two-dimensional figures. I. Identify and draw three-dimensional objects from different views (top, side, front and perspective). J. Apply properties of equality and proportionality to solve problems involving congruent or similar figures; e.g., create a scale drawing. 2. Determine and use scale factors for similar figures to solve problems using proportional reasoning. 1. Determine necessary conditions for congruence of triangles. 2. Identify the line and rotation symmetries of two-dimensional figures to solve problems. 1. Use and demonstrate understanding of the properties of triangles. For example: a. Use Pythagorean Theorem to solve problems involving right triangles. b. Use triangle angle sum relationships to solve problems. 2. Apply properties of congruent or similar triangles to solve problems involving missing lengths and angle measures. 1. Perform translations, reflections, rotations and dilations of twodimensional figures using a variety of methods (paper folding, tracing, graph paper). 1. Draw representations of three-dimensional geometric objects from different views. 1. Use proportional reasoning to describe and express relationships between parts and attributes of similar and congruent figures.
Standard: Geometry and Spatial Sense Spatial Relationships J. Apply properties of equality and proportionality to solve problems involving congruent or similar figures; e.g., create a scale drawing. 2. Apply properties of congruent or similar triangles to solve problems involving missing lengths and angle measures. 3. Determine and use scale factors for similar figures to solve problems using proportional reasoning
Standard: Patterns, and Algebra A. Describe, extend and determine the rule for patterns and relationships occurring in numeric patterns, computation, geometry, graphs and other applications. Representation B. Represent, analyze and generalize a variety of patterns and functions with tables, graphs, words and symbolic rules. D. Use symbolic algebra to represent and explain mathematical relationships. E. Use rules and variables to describe patterns, functions and other relationships. F. Use representations, such as tables, graphs and equations, to model situations and to solve problems, especially those that involve linear relationships. 1. Generalize patterns by describing in words how to find the next term. 2. Recognize and explain when numerical patterns are linear or nonlinear progressions; e.g., 1, 3, 5, 7... is linear and 1, 3, 4, 8, 16... is nonlinear. 1. Represent and analyze patterns, rules and functions with words, tables, graphs and simple variable expressions. 2. Generalize patterns by describing in words how to find the next term. 1. Recognize a variety of uses for variables; e.g., placeholder for an unknown quantity in an equation, generalization for a pattern, formula. 1. Recognize and explain when numerical patterns are linear or nonlinear progressions; e.g., 1, 3, 5, 7... is linear and 1, 3, 4, 8, 16... is nonlinear. 1. Create visual representations of equation-solving processes that model the use of inverse operations. 2. Represent linear equations by plotting points in the coordinate plane. 3. Represent inequalities on a number line or a coordinate plane. 4. Use graphing calculators or computers to analyze change; e.g., distance-time relationships.
Standard: Patterns, and Algebra G. Write, simplify and evaluate algebraic expressions. 1. Represent and analyze patterns, rules and functions with words, tables, graphs and simple variable expressions. 2. Justify that two forms of an algebraic expression are equivalent, and recognize when an expression is simplified; e.g., 4m = m + m + m + m or a 5 + 4 = 5a + 4. H. Solve linear equations and inequalities symbolically, 1. Create visual representations of equation-solving processes that graphically and numerically. model the use of inverse operations. I. Explain how inverse operations are used to solve linear 1. Create visual representations of equation-solving processes that equations. model the use of inverse operations. J. Use formulas in problem-solving situations. 1. Use strategies to develop formulas for finding area of trapezoids and volume of cylinders and prisms (Measurement) 2. Use and demonstrate understanding of the properties of triangles. For Example: a. use Pythagorean Theorem to solve problems involving triangles. b. Use triangles angle sum relationships to solve problems. 3. Use formulas in problem-solving situations. K. Graph linear equations and inequalities. 1. Represent linear equations by plotting points in the coordinate plane. 2. Represent inequalities on a number line or a coordinate plane.
Standard: Patterns, and Algebra Analyze Change L. Analyze functional relationships, and explain how a change in one quantity results in a change in the other. 1. Analyze linear and simple nonlinear relationships to explain how a change in one variable results in the change of another. Analyze Change M. Approximate and interpret rates of change from graphical and numerical data. 1. Use graphing calculators or computers to analyze change; e.g., distance-time relationships.
Standard: Data Analysis and Probability Data Collection A. Read, create and use line graphs, histograms, circle graphs, boxand-whisker plots, stem-and-leaf plots, and other representations 1. Read, create and interpret box-and-whisker plots, stem-and-leaf plots, and other types of graphs, when appropriate. when appropriate. Statistical Methods B. Interpret data by looking for patterns and relationships, draw and justify conclusions, and answer related questions. 1. Construct opposing arguments based on analysis of the same data, using different graphical representations. Statistical Methods D. Compare increasingly complex displays of data, such as multiple 1. Compare data from two or more samples to determine how Data Collection Statistical Methods Data Collection sets of data on the same graph. E. Collect, organize, display and interpret data for a specific purpose or need. F. Determine and use the range, mean, median and mode to analyze and compare data, and explain what each indicates about the data. G. Evaluate conjectures and predictions based upon data presented in tables and graphs, and identify misuses of statistical data and displays. sample selection can influence results. 1. Analyze how decisions about graphing affect the graphical representation; e.g., scale, size of classes in a histogram, number of categories in a circle graph. 1. Analyze a set of data by using and comparing combinations of measures of center (mean, mode, median) and measures of spread (range, quartile, interquartile range), and describe how the inclusion or exclusion of outliers affects those measures. 1. Analyze how decisions about graphing affect the graphical representation; e.g., scale, size of classes in a histogram, number of categories in a circle graph. Statistical Methods Probability Probability I. Describe the probability of an event using ratios, including fractional notation. K. Make and justify predictions based on experimental and theoretical probabilities. 2. Identify misuses of statistical data in articles, advertisements, and other media. 1. Compute probabilities of compound events; e.g., multiple coin tosses or multiple rolls of number cubes, using such methods as organized lists, tree diagrams and area models. 1. Make predictions based on theoretical probabilities, design and conduct an experiment to test the predictions, compare actual results to predicted results, and explain differences.